View clinical trials related to Heart Diseases.
Filter by:Congenital heart disease is a common abnormality in newborns. The marked improvement in the surgical management of congenital heart disease has led to a reduction in postoperative mortality, historically a quality criterion for surgical and resuscitation management. With the improvement of medical knowledge and surgical techniques, mortality is no longer a single quality criterion for a center and the search for other quality criteria is essential.
1. Assesment of pediatric CHD by Echocardiography and Multislice CT before operation and compare with surgical results. 2. Compare echocardiogram and 128-Multislice spiral computed tomography(MSCT) in the diagnosis of pediatric CHD. 3. Confirm echocardiographic finding in pediatric CHD by(MSCT) and to show the role of MSCT in diagnosing of extra-cardia anomalies. 4. to show the role of MSCT as a useful tool in defintive diagnosis of congenital heart disease before operations which assist surgeons
The objective of this study is to assess the safety and efficacy of the DREAMS 3G in the treatment of subjects with up to two de novo lesions in native coronary arteries compared to a contemporary drug eluting stent (DES).
The purpose of this study is to develop and test a 12-week sedentary behavior reduction intervention ("Sit Less" program) for patients with cardiovascular disease. The program aims to reduce and break sitting times among this population using an objective activity monitor and mHealth. The investigators will test the program to help cardiovascular disease patients break up sitting time, reduce daily sitting time, and move more. The investigators will also study whether the program leads to improvements in heart disease risk factors, and whether cardiovascular disease patients like the program and can follow it.
Certain diseases relating to the heart can only be definitively treated with surgery. When untreated, these can lead to heart failure with a lack of supply of oxygen-rich blood to the tissues, leading to damage to other organs. Adults who undergo heart surgery vary greatly in terms of age and relative health. This has significant implications when predicting outcomes in the aftermath of surgery. For example, a 90-year-old man with a variety of comorbidities such as diabetes and high cholesterol who requires a heart valve replacement may have an unfavourable chance of surviving the postoperative period when compared to an 18-year-old woman with no significant medical history undergoing the same procedure. Almost invariably, patients are admitted to an Intensive Care Unit (ICU) following heart surgery. This is done to facilitate close monitoring of the patients' vital organ functions and to also provide organ support if needed. For the heart, this can include the administration of drugs to help a heart pump forcibly, cause blood vessels to contract and increase blood pressure. Patients who have undergone heart surgery have been placed on a mechanical ventilator, following a tube placed in their windpipe. This form of ventilation often continues in ICU for a period of time, depending on the patient's condition. One specific type of ICU level monitoring that occurs in patients who have undergone heart surgery is cardiac output monitoring. This involves a thin tube, called a pulmonary artery catheter, that extends from the skin to the heart, via large blood vessels. Cardiac output monitoring is essential in this patient group to guide organ support and to provide information of how well the heart is functioning. In this observational study, the investigators wish to study patients who have undergone cardiac surgery, are receiving mechanical ventilation and have pulmonary artery catheters inserted. The investigators will collect cardiopulmonary data in these patients and compare these data with values of exhaled and inhaled gases (oxygen and carbon dioxide) over the same time period. This will enable the investigators to investigate the link between cardiopulmonary data and respired gas values. A better understanding of this link between cardiopulmonary function and oxygen/carbon dioxide values will then inform future studies aiming to determine the effect of various interventions in similar patient groups.
We are seeing how well a remote monitoring device that looks like a sticker placed on the chest, under the arm can monitor a child's vital signs including oxygen levels compared to the way that we usually get these measurements. The goal of this study is to see if the new sticker can be used for monitoring patients with cardiac shunt dependent heart conditions from home once they are discharged home. Participating children will be monitored for 6-72 hours with the new sticker in addition to his/her usual hospital monitors so the new sticker device can be compared to our hospital monitors.
Background and Objectives: Opioid based analgesia is the main used technique in pediatric cardiac surgery which preclude fast-track recovery. Ultrasound guided regional fascial plane blocks are used recently in many pediatric surgical procedure with excellent outcomes and very low rate of complication. The investigators will compare ultrasound guided serratus anterior plane block and erector spinae plane block in pediatric cardiac surgical procedure through thoracotomy approach regarding effectiveness of postoperative analgesia, incidence of complications and effect in ultrafast track recovery. Methods: The investigators will enroll 64 pediatric patients aged from 6 months to 10 years undergoing cardiac surgical procedure through thoracotomy approach either with or without cardiopulmonary bypass in this prospective randomized study. After induction of general anesthesia, the patients will be randomly assigned into 2 groups based regional fascial plane block given (SAP group will receive ultrasound guided single shot serratus anterior plane block and ESP group will receive ultrasound guided single shot erector spinae plane block). The effectiveness of postoperative analgesia using FLACC pain score will be recorded as the primary outcome while total consumption of analgesics, the time for rescue analgesia, incidence of complications, and incidence of need for re-intubation will be recorded as the secondary outcomes.
Fibrinogen plays an important role in the coagulation cascade. Low levels of preoperative fibrinogen have been associated in adults with higher blood and transfusion requirements during surgery. Guidelines from the European Society of Anesthesiology and Intensive Care recommends fibrinogen substitution based on viscoelastic tests in adult cardiac surgery. Cardiopulmonary bypass results in a profound hemodilution and dilution of all coagulation factors. This is especially true in children where the priming volume of the cardiopulmonary bypass circuit is much higher compared to the patient's weight than in adults. Cardiopulmonary bypass generates high levels of tissue plasminogen activator resulting in a hyperfibrinolysis, further lowering fibrinogen levels. The aim of this retrospective study is to explore a possible relationship between preoperative fibrinogen levels and perioperative blood loss, as well as transfusion requirements in children undergoing cardiac surgery.
The main objective of RIGHT-CRT is to assess the impact/efficacy of CRT on functional capacity in ACHD patients with SRV.
Sudden cardiac death (SCD) due to recurrent ventricular tachycardia (VT) is an important clinical sequela in patients with structural heart disease. VT generally occurs as a result of electrical re-entry in the presence of arrhythmogenic substrate (scar). Scar tissue forms due to an ischemic cardiomyopathy (ICM) from prior coronary obstructive disease or a non-ischemic cardiomyopathy (NICM) from an inflammatory or genetic disease. AADs can reduce VT recurrence, but have significant limitations in treatment of VT. For example, amiodarone has high rates of side effects/toxicities and a finite effective usage before recurrence. ICDs prevent cardiac arrest and sudden death from VT, but do not stop VT occurring. Recurrent VT and ICD therapies decrease QOL, increase hospital visits, mortality, morbidity and risk of death. Improvement in techniques for mapping and ablation of VT have made CA an alternative. Currently, there is limited evidence to guide clinicians either toward AAD therapy or CA in patients with NICM. This data shows significant benefit of CA over medical therapy in terms of VT free survival, survival free of VT storm and VT burden. Observational studies suggest that CA is effective in eliminating VT in NICM patients who have failed AADs, resulting in reduction of VT burden and AAD use over long term follow up. Furthermore, there is limited data on the efficacy of CA in early ICM with VT, or advanced ICM with VT. RCT data is almost exclusively on patients with modest ICM with VT, and this is not representative of the real-world scenario of patients with structural heart disease presenting with VT. Therefore the primary objective is to determine in all patients with structural heart disease and spontaneous or inducible VT, if catheter ablation compared to standard medical therapy with anti-arrhythmic drugs results in a reduction of a composite endpoint of recurrent VT, VT storm and death at a median follow up of 18 months.